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2,080 results on '"Dixit V"'

1. Hydrogen Separation Membranes: A Material Perspective

Author

Dixit V. Bhalani and Bogyu Lim

Subjects
hydrogen purification, polymer membranes, sustainable energy, mixed-matrix membranes, membrane materials, Organic chemistry, QD241-441
Abstract

The global energy market is shifting toward renewable, sustainable, and low-carbon hydrogen energy due to global environmental issues, such as rising carbon dioxide emissions, climate change, and global warming. Currently, a majority of hydrogen demands are achieved by steam methane reforming and other conventional processes, which, again, are very carbon-intensive methods, and the hydrogen produced by them needs to be purified prior to their application. Hence, researchers are continuously endeavoring to develop sustainable and efficient methods for hydrogen generation and purification. Membrane-based gas-separation technologies were proven to be more efficient than conventional technologies. This review explores the transition from conventional separation techniques, such as pressure swing adsorption and cryogenic distillation, to advanced membrane-based technologies with high selectivity and efficiency for hydrogen purification. Major emphasis is placed on various membrane materials and their corresponding membrane performance. First, we discuss various metal membranes, including dense, alloyed, and amorphous metal membranes, which exhibit high hydrogen solubility and selectivity. Further, various inorganic membranes, such as zeolites, silica, and CMSMs, are also discussed. Major emphasis is placed on the development of polymeric materials and membranes for the selective separation of hydrogen from CH4, CO2, and N2. In addition, cutting-edge mixed-matrix membranes are also delineated, which involve the incorporation of inorganic fillers to improve performance. This review provides a comprehensive overview of advancements in gas-separation membranes and membrane materials in terms of hydrogen selectivity, permeability, and durability in practical applications. By analyzing various conventional and advanced technologies, this review provides a comprehensive material perspective on hydrogen separation membranes, thereby endorsing hydrogen energy for a sustainable future.

Published
2024
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2. Test for symmetry and confidence interval of the parameter {\mu} of skew-symmetric-Laplace-uniform distribution

Author

Lohot, Raju. K. and Dixit, V. U.

Subjects
Mathematics - Statistics Theory, 62E20 62E20 62E20 62E20 62E20 62E20 62E20, 62F03, 62F25, 62F40, G.3, I.6.0
Abstract

The skew symmetric Laplace uniform distribution SSLUD({\mu}) is introduced in Lohot, R. K. and Dixit, V. U. (2024) using the skewing mechanism of Azzalini (1985). Here we derive the most powerful (MP) test for symmetry of the SSLUD({\mu}). Since the form of the test statistic is complicated and it is difficult to obtain its exact distribution, critical values and the power of MP test are obtained using simulation. Further, we construct a confidence interval (CI) for parameter {\mu} assuming asymptotic normality and empirical distribution of the maximum likelihood estimator of {\mu}. These two methods are compared based on the average length and coverage probability of the CI. Finally, the CI of the parameter {\mu} is constructed using data on the transformed daily percentage change in the price of NIFTY 50, an Indian stock market index given in Lohot, R. K. and Dixit, V. U. (2024)., Comment: 21 pages, 7 tables

Published
2024

3. The skew-symmetric-Laplace-uniform distribution

Author

Lohot, Raju. K. and Dixit, V. U.

Subjects
Mathematics - Statistics Theory
Abstract

Laplace distribution is popular in the field of economics and finance. Still, data sets often show a lack of symmetry and a tendency of being bounded from either side of their support. In view of this, we introduce a new family of skew distribution using the skewing mechanism of Azzalini (1985), namely, skew-symmetric-Laplace-uniform distribution (SSLUD). Here uniform distribution is used not only to introduce skewness in Laplace distribution but also to restrict distribution support on one side of the real line. This paper provides a comprehensive description of the essential distributional properties of SSLUD. Estimators of the parameter are obtained using the method of moments and the method of maximum likelihood. The finite sample and asymptotic properties of these estimators are studied using simulation. It is observed that the maximum likelihood estimator is better than the moment estimator through a simulation study. Finally, an application of SSLUD to real-life data on the daily percentage change in the price of NIFTY 50, an Indian stock market index, is presented.

Published
2024

4. Bioavailability Enhancement Techniques for Poorly Aqueous Soluble Drugs and Therapeutics

Author

Dixit V. Bhalani, Bhingaradiya Nutan, Avinash Kumar, and Arvind K. Singh Chandel

Subjects
solubility, bioavailability, dissolution, nanoparticles, encapsulation, BCS classification, Biology (General), QH301-705.5
Abstract

The low water solubility of pharmacoactive molecules limits their pharmacological potential, but the solubility parameter cannot compromise, and so different approaches are employed to enhance their bioavailability. Pharmaceutically active molecules with low solubility convey a higher risk of failure for drug innovation and development. Pharmacokinetics, pharmacodynamics, and several other parameters, such as drug distribution, protein binding and absorption, are majorly affected by their solubility. Among all pharmaceutical dosage forms, oral dosage forms cover more than 50%, and the drug molecule should be water-soluble. For good therapeutic activity by the drug molecule on the target site, solubility and bioavailability are crucial factors. The pharmaceutical industry’s screening programs identified that around 40% of new chemical entities (NCEs) face various difficulties at the formulation and development stages. These pharmaceuticals demonstrate less solubility and bioavailability. Enhancement of the bioavailability and solubility of drugs is a significant challenge in the area of pharmaceutical formulations. According to the Classification of Biopharmaceutics, Class II and IV drugs (APIs) exhibit poor solubility, lower bioavailability, and less dissolution. Various technologies are discussed in this article to improve the solubility of poorly water-soluble drugs, for example, the complexation of active molecules, the utilization of emulsion formation, micelles, microemulsions, cosolvents, polymeric micelle preparation, particle size reduction technologies, pharmaceutical salts, prodrugs, the solid-state alternation technique, soft gel technology, drug nanocrystals, solid dispersion methods, crystal engineering techniques and nanomorph technology. This review mainly describes several other advanced methodologies for solubility and bioavailability enhancement, such as crystal engineering, micronization, solid dispersions, nano sizing, the use of cyclodextrins, solid lipid nanoparticles, colloidal drug delivery systems and drug conjugates, referring to a number of appropriate research reports.

Published
2022
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12. Hydrogen Separation Membranes: A Material Perspective.

Author

Bhalani, Dixit V. and Lim, Bogyu

Subjects
*CLEAN energy, *HYDROGEN as fuel, *CARBON emissions, *METALLIC glasses, *MEMBRANE separation, *STEAM reforming, *CARBON cycle
Abstract

The global energy market is shifting toward renewable, sustainable, and low-carbon hydrogen energy due to global environmental issues, such as rising carbon dioxide emissions, climate change, and global warming. Currently, a majority of hydrogen demands are achieved by steam methane reforming and other conventional processes, which, again, are very carbon-intensive methods, and the hydrogen produced by them needs to be purified prior to their application. Hence, researchers are continuously endeavoring to develop sustainable and efficient methods for hydrogen generation and purification. Membrane-based gas-separation technologies were proven to be more efficient than conventional technologies. This review explores the transition from conventional separation techniques, such as pressure swing adsorption and cryogenic distillation, to advanced membrane-based technologies with high selectivity and efficiency for hydrogen purification. Major emphasis is placed on various membrane materials and their corresponding membrane performance. First, we discuss various metal membranes, including dense, alloyed, and amorphous metal membranes, which exhibit high hydrogen solubility and selectivity. Further, various inorganic membranes, such as zeolites, silica, and CMSMs, are also discussed. Major emphasis is placed on the development of polymeric materials and membranes for the selective separation of hydrogen from CH4, CO2, and N2. In addition, cutting-edge mixed-matrix membranes are also delineated, which involve the incorporation of inorganic fillers to improve performance. This review provides a comprehensive overview of advancements in gas-separation membranes and membrane materials in terms of hydrogen selectivity, permeability, and durability in practical applications. By analyzing various conventional and advanced technologies, this review provides a comprehensive material perspective on hydrogen separation membranes, thereby endorsing hydrogen energy for a sustainable future. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Development of high power quantum well lasers at RRCAT

Author

Sharma, T. K., Ganguli, Tapas, Dixit, V. K., Singh, S. D., Pal, S., Porwal, S., Kumar, Ravi, Khakha, Alexander, Jangir, R., Kheraj, V., Rawat, P., and Nath, A. K.

Subjects
Physics - Optics
Abstract

We at RRCAT have recently developed high power laser diodes in the wavelength range of 740 to 1000 nm. A typical semiconductor laser structure is consisted of about 10 epilayers with different composition, thickness and doping values. For example, a laser diode operating at 0.8 micron has either GaAs or GaAsP quantum well as an active layer. The quantum well is sandwiched between AlGaAs wider bandgap waveguide and cladding layers. The complete laser structure is grown by metal organic vapour phase epitaxy technique and devices are fabricated through standard procedure using photolithography. We recently achieved about 5.3 Watt peak power at 853 nm. These laser diodes were tested under pulsed operation at room temperature for 500 nanosecond pulse duration with a duty cycle of 1:1000. Laser diode arrays consisting of 6-10 elements were also developed and tested for operation in pulsed mode at room temperature., Comment: appears in Proc. Of BARC Golden Jubilee Sixth DAE-BRNS NLS-2006 published in KIRAN-A Bulletin of Indian Laser Association, 17(3), 86 (2006). Invited Talk

Published
2014

23. A Propound Method for the Improvement of Cluster Quality

Author

Bhatia, Shveta Kundra and Dixit, V. S.

Subjects
Computer Science - Learning
Abstract

In this paper Knockout Refinement Algorithm (KRA) is proposed to refine original clusters obtained by applying SOM and K-Means clustering algorithms. KRA Algorithm is based on Contingency Table concepts. Metrics are computed for the Original and Refined Clusters. Quality of Original and Refined Clusters are compared in terms of metrics. The proposed algorithm (KRA) is tested in the educational domain and results show that it generates better quality clusters in terms of improved metric values.

Published
2013

25. Contributors

Author

Alugoju, Phaniendra, primary, Ampasala, Dinakara Rao, additional, Arumugam, Neelakantan, additional, Begum, Dariya, additional, Bhaskar, L.V.K.S., additional, Bhattacharyya, Ishita, additional, Burte, Narayan P., additional, Chaitanya, Nyshadham S.N., additional, Dixit, V., additional, Dwarapureddi, Bhavya Kavitha, additional, Ghanta, Mohan Krishna, additional, Gupta, Manoj Kumar, additional, Gursale, Santosh C., additional, Kancharla, Pavan Kumar, additional, Karnena, Manoj Kumar, additional, Krishna Swamy, V.K.D., additional, Malla, Rama Rao, additional, Merchant, Neha, additional, Muthaiyan, Mathavan, additional, Nagaraju, Ganji Purnachandra, additional, Naorem, Leimarembi Devi, additional, Nellore, Jayshree, additional, Patnala, Kiranmayi, additional, Peela, Sujatha, additional, Pradeep, P.S., additional, Rakshit, Samrat, additional, Ram Sailesh, A., additional, Ramakrishna, Vadde, additional, Santhiya, K., additional, Saxena, S., additional, Shinde, S., additional, Shukla, D., additional, Sivadasan, Sreedevi Muttathuveliyil, additional, Sivaprabha, J., additional, Sivaraj, Nagarjuna, additional, Sivaraman, D., additional, Srinivas, N., additional, Sumathi, S., additional, Suresh Kumar, K., additional, Tiwari, A.K., additional, Vara, Saritha, additional, Venkatesan, Amouda, additional, Vijaya Rachel, K., additional, Vishvakarma, N.K., additional, and Vishwas, Soumya, additional

Published
2021
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27. Collaborative Personalized Web Recommender System using Entropy based Similarity Measure

Author

Mehta, Harita, Bhatia, Shveta Kundra, Bedi, Punam, and Dixit, V. S.

Subjects
Computer Science - Information Retrieval, Computer Science - Artificial Intelligence
Abstract

On the internet, web surfers, in the search of information, always strive for recommendations. The solutions for generating recommendations become more difficult because of exponential increase in information domain day by day. In this paper, we have calculated entropy based similarity between users to achieve solution for scalability problem. Using this concept, we have implemented an online user based collaborative web recommender system. In this model based collaborative system, the user session is divided into two levels. Entropy is calculated at both the levels. It is shown that from the set of valuable recommenders obtained at level I; only those recommenders having lower entropy at level II than entropy at level I, served as trustworthy recommenders. Finally, top N recommendations are generated from such trustworthy recommenders for an online user., Comment: 10 pages

Published
2012

29. Alloying induced degradation of the absorption edge of InAs_{x}Sb_{1-x}

Author

Bansal, Bhavtosh, Dixit, V. K., Venkataraman, V., and Bhat, H. L.

Subjects
Condensed Matter - Materials Science
Abstract

InAs_{x}Sb_{1-x} alloys show a strong bowing in the energy gap, the energy gap of the alloy can be less than the gap of the two parent compounds. We demonstrate that a consequence of this alloying is a systematic degradation in the sharpness of the absorption edge. The alloy disorder induced band-tail (Urbach tail) characteristics are quantitatively studied for InAs_{0.05}Sb_{0.95}., Comment: 3 figures

Published
2007

41. Hepatitis B - Make Liver Limp But Kill The Kidneys

Author

Karoliya, Vaibhav, primary, Das, Dipankar, additional, Gattani, Ram, additional, Gupta, Upendra, additional, Yadav, D P, additional, Dixit, V K, additional, Kumar, Vinod, additional, Tiwari, Anurag, additional, and Shukla, S K, additional

Published
2023
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